function mpc = case24_ieee_rts
%CASE24_IEEE_RTS  Power flow data for the IEEE RELIABILITY TEST SYSTEM.
%   Please see CASEFORMAT for details on the case file format.
%
%   This system data is from the IEEE RELIABILITY TEST SYSTEM, see
%
%   IEEE Reliability Test System Task Force of the Applications of
%   Probability Methods Subcommittee, "IEEE reliability test system,"
%   IEEE Transactions on Power Apparatus and Systems, Vol. 98, No. 6,
%   Nov./Dec. 1979, pp. 2047-2054.
%
%   IEEE Reliability Test System Task Force of Applications of
%   Probability Methods Subcommittee, "IEEE reliability test system-96,"
%   IEEE Transactions on Power Systems, Vol. 14, No. 3, Aug. 1999,
%   pp. 1010-1020.
%
%   Cost data is from Web site run by Georgia Tech Power Systems Control
%   and Automation Laboratory:
%
%       http://pscal.ece.gatech.edu/testsys/index.html
%
%   MATPOWER case file data provided by Bruce Wollenberg.

%   MATPOWER

%% MATPOWER Case Format : Version 2
mpc.version = '2';

%%-----  Power Flow Data  -----%%
%% system MVA base
mpc.baseMVA = 100;

%% bus data
%	bus_i	type	Pd	Qd	Gs	Bs	area	Vm	Va	baseKV	zone	Vmax	Vmin
mpc.bus = [
	1	2	108	22	0	0	1	1	0	138	1	1.05	0.95;
	2	2	97	20	0	0	1	1	0	138	1	1.05	0.95;
	3	1	180	37	0	0	1	1	0	138	1	1.05	0.95;
	4	1	74	15	0	0	1	1	0	138	1	1.05	0.95;
	5	1	71	14	0	0	1	1	0	138	1	1.05	0.95;
	6	1	136	28	0	-100	2	1	0	138	1	1.05	0.95;
	7	2	125	25	0	0	2	1	0	138	1	1.05	0.95;
	8	1	171	35	0	0	2	1	0	138	1	1.05	0.95;
	9	1	175	36	0	0	1	1	0	138	1	1.05	0.95;
	10	1	195	40	0	0	2	1	0	138	1	1.05	0.95;
	11	1	0	0	0	0	3	1	0	230	1	1.05	0.95;
	12	1	0	0	0	0	3	1	0	230	1	1.05	0.95;
	13	3	265	54	0	0	3	1	0	230	1	1.05	0.95;
	14	2	194	39	0	0	3	1	0	230	1	1.05	0.95;
	15	2	317	64	0	0	4	1	0	230	1	1.05	0.95;
	16	2	100	20	0	0	4	1	0	230	1	1.05	0.95;
	17	1	0	0	0	0	4	1	0	230	1	1.05	0.95;
	18	2	333	68	0	0	4	1	0	230	1	1.05	0.95;
	19	1	181	37	0	0	3	1	0	230	1	1.05	0.95;
	20	1	128	26	0	0	3	1	0	230	1	1.05	0.95;
	21	2	0	0	0	0	4	1	0	230	1	1.05	0.95;
	22	2	0	0	0	0	4	1	0	230	1	1.05	0.95;
	23	2	0	0	0	0	3	1	0	230	1	1.05	0.95;
	24	1	0	0	0	0	4	1	0	230	1	1.05	0.95;
];

%% generator data
%	bus	Pg	Qg	Qmax	Qmin	Vg	mBase	status	Pmax	Pmin	Pc1	Pc2	Qc1min	Qc1max	Qc2min	Qc2max	ramp_agc	ramp_10	ramp_30	ramp_q	apf	%	Unit Code
mpc.gen = [
	1	10	0	10	0	1.035	100	1	20	16	0	0	0	0	0	0	0	0	0	0	0;	%	U20
	1	10	0	10	0	1.035	100	1	20	16	0	0	0	0	0	0	0	0	0	0	0;	%	U20
	1	76	0	30	-25	1.035	100	1	76	15.2	0	0	0	0	0	0	0	0	0	0	0;	%	U76
	1	76	0	30	-25	1.035	100	1	76	15.2	0	0	0	0	0	0	0	0	0	0	0;	%	U76
	2	10	0	10	0	1.035	100	1	20	16	0	0	0	0	0	0	0	0	0	0	0;	%	U20
	2	10	0	10	0	1.035	100	1	20	16	0	0	0	0	0	0	0	0	0	0	0;	%	U20
	2	76	0	30	-25	1.035	100	1	76	15.2	0	0	0	0	0	0	0	0	0	0	0;	%	U76
	2	76	0	30	-25	1.035	100	1	76	15.2	0	0	0	0	0	0	0	0	0	0	0;	%	U76
	7	80	0	60	0	1.025	100	1	100	25	0	0	0	0	0	0	0	0	0	0	0;	%	U100
	7	80	0	60	0	1.025	100	1	100	25	0	0	0	0	0	0	0	0	0	0	0;	%	U100
	7	80	0	60	0	1.025	100	1	100	25	0	0	0	0	0	0	0	0	0	0	0;	%	U100
	13	95.1	0	80	0	1.02	100	1	197	69	0	0	0	0	0	0	0	0	0	0	0;	%	U197
	13	95.1	0	80	0	1.02	100	1	197	69	0	0	0	0	0	0	0	0	0	0	0;	%	U197
	13	95.1	0	80	0	1.02	100	1	197	69	0	0	0	0	0	0	0	0	0	0	0;	%	U197
	14	0	35.3	200	-50	0.98	100	1	0	0	0	0	0	0	0	0	0	0	0	0	0;	%	SynCond
	15	12	0	6	0	1.014	100	1	12	2.4	0	0	0	0	0	0	0	0	0	0	0;	%	U12
	15	12	0	6	0	1.014	100	1	12	2.4	0	0	0	0	0	0	0	0	0	0	0;	%	U12
	15	12	0	6	0	1.014	100	1	12	2.4	0	0	0	0	0	0	0	0	0	0	0;	%	U12
	15	12	0	6	0	1.014	100	1	12	2.4	0	0	0	0	0	0	0	0	0	0	0;	%	U12
	15	12	0	6	0	1.014	100	1	12	2.4	0	0	0	0	0	0	0	0	0	0	0;	%	U12
	15	155	0	80	-50	1.014	100	1	155	54.3	0	0	0	0	0	0	0	0	0	0	0;	%	U155
	16	155	0	80	-50	1.017	100	1	155	54.3	0	0	0	0	0	0	0	0	0	0	0;	%	U155
	18	400	0	200	-50	1.05	100	1	400	100	0	0	0	0	0	0	0	0	0	0	0;	%	U400
	21	400	0	200	-50	1.05	100	1	400	100	0	0	0	0	0	0	0	0	0	0	0;	%	U400
	22	50	0	16	-10	1.05	100	1	50	10	0	0	0	0	0	0	0	0	0	0	0;	%	U50
	22	50	0	16	-10	1.05	100	1	50	10	0	0	0	0	0	0	0	0	0	0	0;	%	U50
	22	50	0	16	-10	1.05	100	1	50	10	0	0	0	0	0	0	0	0	0	0	0;	%	U50
	22	50	0	16	-10	1.05	100	1	50	10	0	0	0	0	0	0	0	0	0	0	0;	%	U50
	22	50	0	16	-10	1.05	100	1	50	10	0	0	0	0	0	0	0	0	0	0	0;	%	U50
	22	50	0	16	-10	1.05	100	1	50	10	0	0	0	0	0	0	0	0	0	0	0;	%	U50
	23	155	0	80	-50	1.05	100	1	155	54.3	0	0	0	0	0	0	0	0	0	0	0;	%	U155
	23	155	0	80	-50	1.05	100	1	155	54.3	0	0	0	0	0	0	0	0	0	0	0;	%	U155
	23	350	0	150	-25	1.05	100	1	350	140	0	0	0	0	0	0	0	0	0	0	0;	%	U350
];

%% branch data
%	fbus	tbus	r	x	b	rateA	rateB	rateC	ratio	angle	status	angmin	angmax
mpc.branch = [
	1	2	0.0026	0.0139	0.4611	175	250	200	0	0	1	-360	360;
	1	3	0.0546	0.2112	0.0572	175	208	220	0	0	1	-360	360;
	1	5	0.0218	0.0845	0.0229	175	208	220	0	0	1	-360	360;
	2	4	0.0328	0.1267	0.0343	175	208	220	0	0	1	-360	360;
	2	6	0.0497	0.192	0.052	175	208	220	0	0	1	-360	360;
	3	9	0.0308	0.119	0.0322	175	208	220	0	0	1	-360	360;
	3	24	0.0023	0.0839	0	400	510	600	1.03	0	1	-360	360;
	4	9	0.0268	0.1037	0.0281	175	208	220	0	0	1	-360	360;
	5	10	0.0228	0.0883	0.0239	175	208	220	0	0	1	-360	360;
	6	10	0.0139	0.0605	2.459	175	193	200	0	0	1	-360	360;
	7	8	0.0159	0.0614	0.0166	175	208	220	0	0	1	-360	360;
	8	9	0.0427	0.1651	0.0447	175	208	220	0	0	1	-360	360;
	8	10	0.0427	0.1651	0.0447	175	208	220	0	0	1	-360	360;
	9	11	0.0023	0.0839	0	400	510	600	1.03	0	1	-360	360;
	9	12	0.0023	0.0839	0	400	510	600	1.03	0	1	-360	360;
	10	11	0.0023	0.0839	0	400	510	600	1.02	0	1	-360	360;
	10	12	0.0023	0.0839	0	400	510	600	1.02	0	1	-360	360;
	11	13	0.0061	0.0476	0.0999	500	600	625	0	0	1	-360	360;
	11	14	0.0054	0.0418	0.0879	500	625	625	0	0	1	-360	360;
	12	13	0.0061	0.0476	0.0999	500	625	625	0	0	1	-360	360;
	12	23	0.0124	0.0966	0.203	500	625	625	0	0	1	-360	360;
	13	23	0.0111	0.0865	0.1818	500	625	625	0	0	1	-360	360;
	14	16	0.005	0.0389	0.0818	500	625	625	0	0	1	-360	360;
	15	16	0.0022	0.0173	0.0364	500	600	625	0	0	1	-360	360;
	15	21	0.0063	0.049	0.103	500	600	625	0	0	1	-360	360;
	15	21	0.0063	0.049	0.103	500	600	625	0	0	1	-360	360;
	15	24	0.0067	0.0519	0.1091	500	600	625	0	0	1	-360	360;
	16	17	0.0033	0.0259	0.0545	500	600	625	0	0	1	-360	360;
	16	19	0.003	0.0231	0.0485	500	600	625	0	0	1	-360	360;
	17	18	0.0018	0.0144	0.0303	500	600	625	0	0	1	-360	360;
	17	22	0.0135	0.1053	0.2212	500	600	625	0	0	1	-360	360;
	18	21	0.0033	0.0259	0.0545	500	600	625	0	0	1	-360	360;
	18	21	0.0033	0.0259	0.0545	500	600	625	0	0	1	-360	360;
	19	20	0.0051	0.0396	0.0833	500	600	625	0	0	1	-360	360;
	19	20	0.0051	0.0396	0.0833	500	600	625	0	0	1	-360	360;
	20	23	0.0028	0.0216	0.0455	500	600	625	0	0	1	-360	360;
	20	23	0.0028	0.0216	0.0455	500	600	625	0	0	1	-360	360;
	21	22	0.0087	0.0678	0.1424	500	600	625	0	0	1	-360	360;
];

%%-----  OPF Data  -----%%
%% generator cost data
%	1	startup	shutdown	n	x1	y1	...	xn	yn
%	2	startup	shutdown	n	c(n-1)	...	c0
mpc.gencost = [								%	bus	Pmin	Pmax	Qmin	Qmax	Unit Code
	2	1500	0	3	0	130	400.6849;	%	1	16	20	0	10	U20
	2	1500	0	3	0	130	400.6849;	%	1	16	20	0	10	U20
	2	1500	0	3	0.014142	16.0811	212.3076;	%	1	15.2	76	-25	30	U76
	2	1500	0	3	0.014142	16.0811	212.3076;	%	1	15.2	76	-25	30	U76
	2	1500	0	3	0	130	400.6849;	%	2	16	20	0	10	U20
	2	1500	0	3	0	130	400.6849;	%	2	16	20	0	10	U20
	2	1500	0	3	0.014142	16.0811	212.3076;	%	2	15.2	76	-25	30	U76
	2	1500	0	3	0.014142	16.0811	212.3076;	%	2	15.2	76	-25	30	U76
	2	1500	0	3	0.052672	43.6615	781.521;	%	7	25	100	0	60	U100
	2	1500	0	3	0.052672	43.6615	781.521;	%	7	25	100	0	60	U100
	2	1500	0	3	0.052672	43.6615	781.521;	%	7	25	100	0	60	U100
	2	1500	0	3	0.00717	48.5804	832.7575;	%	13	69	197	0	80	U197
	2	1500	0	3	0.00717	48.5804	832.7575;	%	13	69	197	0	80	U197
	2	1500	0	3	0.00717	48.5804	832.7575;	%	13	69	197	0	80	U197
	2	1500	0	3	0	0	0;	%	14					SynCond
	2	1500	0	3	0.328412	56.564	86.3852;	%	15	2.4	12	0	6	U12
	2	1500	0	3	0.328412	56.564	86.3852;	%	15	2.4	12	0	6	U12
	2	1500	0	3	0.328412	56.564	86.3852;	%	15	2.4	12	0	6	U12
	2	1500	0	3	0.328412	56.564	86.3852;	%	15	2.4	12	0	6	U12
	2	1500	0	3	0.328412	56.564	86.3852;	%	15	2.4	12	0	6	U12
	2	1500	0	3	0.008342	12.3883	382.2391;	%	15	54.3	155	-50	80	U155
	2	1500	0	3	0.008342	12.3883	382.2391;	%	16	54.3	155	-50	80	U155
	2	1500	0	3	0.000213	4.4231	395.3749;	%	18	100	400	-50	200	U400
	2	1500	0	3	0.000213	4.4231	395.3749;	%	21	100	400	-50	200	U400
	2	1500	0	3	0	0.001	0.001;	%	22	10	50	-10	16	U50
	2	1500	0	3	0	0.001	0.001;	%	22	10	50	-10	16	U50
	2	1500	0	3	0	0.001	0.001;	%	22	10	50	-10	16	U50
	2	1500	0	3	0	0.001	0.001;	%	22	10	50	-10	16	U50
	2	1500	0	3	0	0.001	0.001;	%	22	10	50	-10	16	U50
	2	1500	0	3	0	0.001	0.001;	%	22	10	50	-10	16	U50
	2	1500	0	3	0.008342	12.3883	382.2391;	%	23	54.3	155	-50	80	U155
	2	1500	0	3	0.008342	12.3883	382.2391;	%	23	54.3	155	-50	80	U155
	2	1500	0	3	0.004895	11.8495	665.1094;	%	23	140	350	-25	150	U350
];
